Relationship between the number of links (L) and number of pairs (P) is

Theory of Machine
Relationship between the number of links (L) and number of pairs (P) is

P = 2L + 4

P = 2L + 2

P = 2L - 4

P = 2L - 2

P = 2L + 4

P = 2L + 2

P = 2L - 4

P = 2L - 2

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Theory of Machine
When the nature of contact between the elements of a pair is such that it can only slide relative to the other, the pair is known as a

Spherical pair

Turning pair

Sliding pair

Screw pair

Spherical pair

Turning pair

Sliding pair

Screw pair

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Theory of Machine
The working depth of a gear is the radial distance from the

Pitch circle to the top of a tooth

Pitch circle to the bottom of a tooth

Top of a tooth to the bottom of a tooth

Addendum circle to the clearance circle

Pitch circle to the top of a tooth

Pitch circle to the bottom of a tooth

Top of a tooth to the bottom of a tooth

Addendum circle to the clearance circle

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Theory of Machine
The driving and driven shafts connected by a Hooke's joint will have equal speeds, if

tanθ = ± cosα

cosθ = sinα

sinθ = ± tanα

cotθ = cosα

tanθ = ± cosα

cosθ = sinα

sinθ = ± tanα

cotθ = cosα

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Theory of Machine
Two pulleys of radii r₁ and r₂ and at distance x apart are connected by means of a cross belt drive. The length of the belt is

π (r₁ + r₂) + [(r₁ + r₂)²/x] + 2x

π (r₁ - r₂) + [(r₁ - r₂)²/x] + 2x

π (r₁ - r₂) + [(r₁ + r₂)²/x] + 2x

π (r₁ + r₂) + [(r₁ - r₂)²/x] + 2x

π (r₁ + r₂) + [(r₁ + r₂)²/x] + 2x

π (r₁ - r₂) + [(r₁ - r₂)²/x] + 2x

π (r₁ - r₂) + [(r₁ + r₂)²/x] + 2x

π (r₁ + r₂) + [(r₁ - r₂)²/x] + 2x

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Theory of Machine
The rotating shafts tend to vibrate violently at whirling speeds because

Resonance is caused due to the heavy mass of the rotor

The system is unbalanced

The shafts are rotating at very high speeds

Bearing centre line coincides with the axis

Resonance is caused due to the heavy mass of the rotor

The system is unbalanced

The shafts are rotating at very high speeds

Bearing centre line coincides with the axis

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Theory of Machine

Theory of Machine Relationship between the number of links (L) and number of pairs (P) is

Theory of Machine When the nature of contact between the elements of a pair is such that it can only slide relative to the other, the pair is known as a

Theory of Machine The working depth of a gear is the radial distance from the

Theory of Machine The driving and driven shafts connected by a Hooke's joint will have equal speeds, if

Theory of Machine Two pulleys of radii r₁ and r₂ and at distance x apart are connected by means of a cross belt drive. The length of the belt is

Theory of Machine The rotating shafts tend to vibrate violently at whirling speeds because

Theory of Machine
Relationship between the number of links (L) and number of pairs (P) is

Theory of Machine
When the nature of contact between the elements of a pair is such that it can only slide relative to the other, the pair is known as a

Theory of Machine
The working depth of a gear is the radial distance from the

Theory of Machine
The driving and driven shafts connected by a Hooke's joint will have equal speeds, if

Theory of Machine
Two pulleys of radii r₁ and r₂ and at distance x apart are connected by means of a cross belt drive. The length of the belt is

Theory of Machine
The rotating shafts tend to vibrate violently at whirling speeds because